Experimental passive self-tuning behavior of a beam resonator with sliding proof mass |
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Authors: | Lindsay M Miller Pit Pillatsch Einar Halvorsen Paul K Wright Eric M Yeatman Andrew S Holmes |
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Institution: | 1. University of California, Department of Mechanical Engineering, Berkeley, USA;2. Imperial College London, Department of Electrical and Electronic Engineering, UK;3. Vestfold University College, Department of Microsystems Technology, Norway |
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Abstract: | A passively self-tuning resonator configuration is presented in this study. Three different prototype beam–mass systems were built and tested and all successfully displayed passive self-tuning behavior when driven by vibrations at frequencies ranging from 45 to 140 Hz and accelerations ranging from 0.007 to 2g. All three systems were able to achieve tuning within their operating regime when driven at a single frequency, as well as maintain a tuned condition as frequency was stepped up or down, demonstrating a bandwidth between 6 and 40 Hz. One application of such a passively self-tuning system is in vibration energy harvesting, where it is critical for performance that the harvester device resonance frequency matches the input vibration frequency, yet the input frequency may change over time and is not known a priori. The self-tuning resonator demonstrated in this paper can enable the energy harvesting system to adjust to the varying input frequencies and thereby increase the energy harvested over time. |
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